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# Licensed under the Apache License, Version 2.0 (the "License");
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#     http://www.apache.org/licenses/LICENSE-2.0
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from typing import Optional

import lightning.pytorch as pl
import nemo_run as run
import torch

from nemo.collections.llm.api import pretrain
from nemo.collections.llm.bert.data.mock import BERTMockDataModule
from nemo.collections.llm.recipes.bert import bert_model, bert_trainer
from nemo.collections.llm.recipes.log.default import default_log, default_resume, tensorboard_logger
from nemo.collections.llm.recipes.optim.adam import distributed_fused_adam_with_cosine_annealing
from nemo.utils.exp_manager import TimingCallback

NAME = "bert_340m"


@run.cli.factory(name=NAME)
def model(bert_type: str = "huggingface") -> run.Config[pl.LightningModule]:
    """
    Factory function to create a Bert-Large (340 million) model configuration.

    Returns:
        run.Config[pl.LightningModule]: Configuration for the BERT-Large (340 million) model.

    Examples:
        CLI usage:
            $ nemo llm pretrain model=bert_340m ...

        Python API usage:
            >>> model_config = model(bert_type="megatron")
            >>> print(model_config)
    """
    return bert_model(version=NAME, bert_type=bert_type)


@run.cli.factory(target=pretrain, name=NAME)
def pretrain_recipe(
    # General
    dir: Optional[str] = None,
    name: str = "default",
    bert_type: str = "megatron",
    # Trainer
    tensor_parallelism: int = 1,
    pipeline_parallelism: int = 1,
    pipeline_parallelism_type: Optional[torch.dtype] = torch.bfloat16,
    virtual_pipeline_parallelism: Optional[int] = None,
    context_parallelism: int = 1,
    sequence_parallelism: bool = False,
    num_nodes: int = 1,
    num_gpus_per_node: int = 8,
    max_steps: int = 1168251,
    precision: str = "bf16-mixed",
    accumulate_grad_batches: int = 1,
    gradient_clip_val: float = 1.0,
    limit_test_batches: int = 32,
    limit_val_batches: int = 32,
    log_every_n_steps: int = 10,
    val_check_interval: int = 2000,
    # Data
    global_batch_size=32,
    micro_batch_size=2,
    seq_length=512,
    # Optimizer
    warmup_steps=500,
    constant_steps=0,
    min_lr=1.0e-5,
    max_lr=1e-4,
    # Training function
    fn=pretrain,
) -> run.Partial:
    """
    Create a pre-training recipe for BERT-Large (340M) model.

    This function sets up a complete configuration for pre-training, including
    model, trainer, data, logging, optimization, and resumption settings.

    Args:
        dir (Optional[str]): Directory for saving logs and checkpoints.
        name (str): Name of the pre-training run.
        bert_type (str): Either "megatron" or "huggingface" type of BERT.
        tensor_parallelism (int): Degree of tensor model parallelism.
        pipeline_parallelism (int): Degree of pipeline model parallelism.
        pipeline_parallelism_type (Optional[torch.dtype]): Data type for pipeline parallelism.
        virtual_pipeline_parallelism (Optional[int]): Size of virtual pipeline parallelism.
        context_parallelism (int): Degree of context parallelism.
        sequence_parallelism (bool): Whether to use sequence parallelism.
        num_nodes (int): Number of compute nodes to use.
        num_gpus_per_node (int): Number of GPUs per node.
        max_steps (int): Maximum number of training steps.
        precision (str): Precision configuration, one of fp32, 16-mixed or bf16-mixed.
        accumulate_grad_batches (int): Number of steps per gradient accumulation.
        gradient_clip_val (float): Value for gradient clipping.
        limit_test_batches (int): Limit the number of test batches.
        limit_val_batches (int): Limit the number of validation batches.
        log_every_n_steps (int): Log every n steps.
        val_check_interval (int): Run validation every N steps.
        global_batch_size (int): Global batch size.
        micro_batch_size (int): Micro batch size.
        seq_length (int): Sequence length.
        warmup_steps (int): Number of warmup steps.
        constant_steps (int): Number of constant steps.
        min_lr (float): Minimum learning rate.
        max_lr (float): Maximum learning rate.
        fn (Callable): The pre-training function to use.

    Returns:
        run.Partial: Partial configuration for pre-training.

    Examples:
        CLI usage:
            $ nemo llm pretrain --factory bert_340m
            $ nemo llm pretrain --factory "bert_340m(num_nodes=1, name='my_bert_pretrain')"

        Python API usage:
            >>> recipe = pretrain_recipe(name="bert_pretrain", num_nodes=1)
            >>> print(recipe)
    """
    return run.Partial(
        fn,
        model=model(bert_type=bert_type),
        trainer=bert_trainer(
            tensor_parallelism=tensor_parallelism,
            pipeline_parallelism=pipeline_parallelism,
            pipeline_parallelism_type=pipeline_parallelism_type,
            virtual_pipeline_parallelism=virtual_pipeline_parallelism,
            context_parallelism=context_parallelism,
            sequence_parallelism=sequence_parallelism,
            num_nodes=num_nodes,
            num_gpus_per_node=num_gpus_per_node,
            max_steps=max_steps,
            precision=precision,
            accumulate_grad_batches=accumulate_grad_batches,
            limit_test_batches=limit_test_batches,
            limit_val_batches=limit_val_batches,
            log_every_n_steps=log_every_n_steps,
            val_check_interval=val_check_interval,
            callbacks=[run.Config(TimingCallback)],
        ),
        data=run.Config(
            BERTMockDataModule,
            seq_length=seq_length,
            global_batch_size=global_batch_size,
            micro_batch_size=micro_batch_size,
        ),
        log=default_log(dir=dir, name=name, tensorboard_logger=tensorboard_logger(name=name)),
        optim=distributed_fused_adam_with_cosine_annealing(
            precision=precision,
            warmup_steps=warmup_steps,
            constant_steps=constant_steps,
            min_lr=min_lr,
            max_lr=max_lr,
            clip_grad=gradient_clip_val,
        ),
        resume=default_resume(),
    )
